Photovoltaic inverter

1. A photovoltaic inverter comprising: a DC link capacitor configured to store a DC voltage output from a solar cell array; a power conversion stage configured to generate an AC power by using the DC voltage stored in the DC link capacitor to transmit the generated AC power to a power system; and a controller configured to apply the DC voltage stored in the DC link capacitor to the power conversion stage, wherein the controller applies a reverse voltage of an open-circuit voltage output from the solar cell array stored in the DC link capacitor to the solar cell array after interrupting the AC power transmitted to the power system depending on whether a driving value of the solar cell array satisfies a predetermined driving condition.

2. The inverter of claim 1 , wherein the driving value of the solar cell array includes at least one of: a magnitude of the DC voltage output from the solar cell array, a driving time of the solar cell array, a driving time period of the solar cell array, and an intensity of polarization of the solar cell array.

3. The inverter of claim 1 , further comprising: a switch unit, wherein the switch unit comprises a first switch connected between a positive terminal of the solar cell array and a positive terminal of the DC link capacitor, a second switch connected between a negative terminal of the solar cell array and a negative terminal of the DC link capacitor, a third switch connected between the positive terminal of the solar cell array and the negative terminal of the DC link capacitor, and a fourth switch connected between the negative terminal of the solar cell array and the positive terminal of the DC link capacitor.

4. The inverter of claim 3 , wherein the controller turns on the first switch and the second switch and turns off the third switch and the fourth switch if the driving value of the solar cell array satisfies the predetermined driving condition, and wherein the controller turns off the first switch and the second switch and turns on the third switch and the fourth switch if the driving value of the solar cell array does not satisfy the predetermined driving condition.

5. The inverter of claim 1 , wherein the DC link capacitor stores the open-circuit voltage output from the solar cell array if the driving value of the solar cell array does not satisfy the predetermined driving condition.

6. A photovoltaic inverter comprising: a DC link capacitor configured to store a DC voltage output from the solar cell array; a power conversion stage configured to generate an AC power by using the DC voltage stored in the DC link capacitor to transmit the generated AC power to a power system; and a controller configured to apply the DC voltage stored in the DC link capacitor to the power conversion stage, wherein the controller applies a reverse voltage of an open-circuit voltage output from the solar cell array stored in the DC link capacitor to the solar cell array after interrupting the AC power transmitted to the power system depending on whether a driving value of the solar cell array satisfies a predetermined driving condition, wherein the controller applies the DC voltage stored in the DC link capacitor to the power conversion stage if the driving value of the solar cell array satisfies the predetermined driving condition, and wherein the controller applies the reverse voltage of the open-circuit voltage stored in the DC link capacitor to the solar cell array if the driving value of the solar cell array does not satisfy the predetermined driving condition.

7. The inverter of claim 6 , further comprising: a switch unit, wherein the switch unit comprises a first switch connected between a positive terminal of the solar cell array and a positive terminal of the DC link capacitor, a second switch connected between a negative terminal of the solar cell array and a negative terminal of the DC link capacitor, a third switch connected between the positive terminal of the solar cell array and the negative terminal of the DC link capacitor, and a fourth switch connected between the negative terminal of the solar cell array and the positive terminal of the DC link capacitor.

8. The inverter of claim 7 , wherein the controller turns on the first switch and the second switch and turns off the third switch and the fourth switch if the driving value of the solar cell array satisfies the predetermined driving condition, and wherein the controller turns off the first switch and the second switch and turns on the third switch and the fourth switch if the driving value of the solar cell array does not satisfy the predetermined driving condition.

9. The inverter of claim 6 , wherein the DC link capacitor stores the open-circuit voltage output from the solar cell array if the driving value of the solar cell array does not satisfy the predetermined driving condition.